#[must_use]
#[repr(C)]
pub struct ChannelHandshakeConfig {
- /// Nearly everyhwere, inner must be non-null, however in places where
+ /// Nearly everywhere, inner must be non-null, however in places where
/// the Rust equivalent takes an Option, it may be set to null to indicate None.
pub inner: *mut nativeChannelHandshakeConfig,
pub is_owned: bool,
#[allow(unused)]
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
impl ChannelHandshakeConfig {
- pub(crate) fn take_ptr(mut self) -> *mut nativeChannelHandshakeConfig {
+ pub(crate) fn take_inner(mut self) -> *mut nativeChannelHandshakeConfig {
assert!(self.is_owned);
let ret = self.inner;
self.inner = std::ptr::null_mut();
pub(crate) extern "C" fn ChannelHandshakeConfig_clone_void(this_ptr: *const c_void) -> *mut c_void {
Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelHandshakeConfig)).clone() })) as *mut c_void
}
+#[no_mangle]
+pub extern "C" fn ChannelHandshakeConfig_clone(orig: &ChannelHandshakeConfig) -> ChannelHandshakeConfig {
+ ChannelHandshakeConfig { inner: Box::into_raw(Box::new(unsafe { &*orig.inner }.clone())), is_owned: true }
+}
/// Confirmations we will wait for before considering the channel locked in.
/// Applied only for inbound channels (see ChannelHandshakeLimits::max_minimum_depth for the
/// equivalent limit applied to outbound channels).
#[must_use]
#[repr(C)]
pub struct ChannelHandshakeLimits {
- /// Nearly everyhwere, inner must be non-null, however in places where
+ /// Nearly everywhere, inner must be non-null, however in places where
/// the Rust equivalent takes an Option, it may be set to null to indicate None.
pub inner: *mut nativeChannelHandshakeLimits,
pub is_owned: bool,
#[allow(unused)]
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
impl ChannelHandshakeLimits {
- pub(crate) fn take_ptr(mut self) -> *mut nativeChannelHandshakeLimits {
+ pub(crate) fn take_inner(mut self) -> *mut nativeChannelHandshakeLimits {
assert!(self.is_owned);
let ret = self.inner;
self.inner = std::ptr::null_mut();
pub(crate) extern "C" fn ChannelHandshakeLimits_clone_void(this_ptr: *const c_void) -> *mut c_void {
Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelHandshakeLimits)).clone() })) as *mut c_void
}
+#[no_mangle]
+pub extern "C" fn ChannelHandshakeLimits_clone(orig: &ChannelHandshakeLimits) -> ChannelHandshakeLimits {
+ ChannelHandshakeLimits { inner: Box::into_raw(Box::new(unsafe { &*orig.inner }.clone())), is_owned: true }
+}
/// Minimum allowed satoshis when a channel is funded, this is supplied by the sender and so
/// only applies to inbound channels.
///
#[must_use]
#[repr(C)]
pub struct ChannelConfig {
- /// Nearly everyhwere, inner must be non-null, however in places where
+ /// Nearly everywhere, inner must be non-null, however in places where
/// the Rust equivalent takes an Option, it may be set to null to indicate None.
pub inner: *mut nativeChannelConfig,
pub is_owned: bool,
#[allow(unused)]
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
impl ChannelConfig {
- pub(crate) fn take_ptr(mut self) -> *mut nativeChannelConfig {
+ pub(crate) fn take_inner(mut self) -> *mut nativeChannelConfig {
assert!(self.is_owned);
let ret = self.inner;
self.inner = std::ptr::null_mut();
pub(crate) extern "C" fn ChannelConfig_clone_void(this_ptr: *const c_void) -> *mut c_void {
Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeChannelConfig)).clone() })) as *mut c_void
}
+#[no_mangle]
+pub extern "C" fn ChannelConfig_clone(orig: &ChannelConfig) -> ChannelConfig {
+ ChannelConfig { inner: Box::into_raw(Box::new(unsafe { &*orig.inner }.clone())), is_owned: true }
+}
/// Amount (in millionths of a satoshi) the channel will charge per transferred satoshi.
/// This may be allowed to change at runtime in a later update, however doing so must result in
/// update messages sent to notify all nodes of our updated relay fee.
crate::c_types::serialize_obj(unsafe { &(*(*obj).inner) })
}
#[no_mangle]
+pub(crate) extern "C" fn ChannelConfig_write_void(obj: *const c_void) -> crate::c_types::derived::CVec_u8Z {
+ crate::c_types::serialize_obj(unsafe { &*(obj as *const nativeChannelConfig) })
+}
+#[no_mangle]
pub extern "C" fn ChannelConfig_read(ser: crate::c_types::u8slice) -> ChannelConfig {
if let Ok(res) = crate::c_types::deserialize_obj(ser) {
ChannelConfig { inner: Box::into_raw(Box::new(res)), is_owned: true }
#[must_use]
#[repr(C)]
pub struct UserConfig {
- /// Nearly everyhwere, inner must be non-null, however in places where
+ /// Nearly everywhere, inner must be non-null, however in places where
/// the Rust equivalent takes an Option, it may be set to null to indicate None.
pub inner: *mut nativeUserConfig,
pub is_owned: bool,
#[allow(unused)]
/// When moving out of the pointer, we have to ensure we aren't a reference, this makes that easy
impl UserConfig {
- pub(crate) fn take_ptr(mut self) -> *mut nativeUserConfig {
+ pub(crate) fn take_inner(mut self) -> *mut nativeUserConfig {
assert!(self.is_owned);
let ret = self.inner;
self.inner = std::ptr::null_mut();
pub(crate) extern "C" fn UserConfig_clone_void(this_ptr: *const c_void) -> *mut c_void {
Box::into_raw(Box::new(unsafe { (*(this_ptr as *mut nativeUserConfig)).clone() })) as *mut c_void
}
+#[no_mangle]
+pub extern "C" fn UserConfig_clone(orig: &UserConfig) -> UserConfig {
+ UserConfig { inner: Box::into_raw(Box::new(unsafe { &*orig.inner }.clone())), is_owned: true }
+}
/// Channel config that we propose to our counterparty.
#[no_mangle]
pub extern "C" fn UserConfig_get_own_channel_config(this_ptr: &UserConfig) -> crate::util::config::ChannelHandshakeConfig {
/// Channel config that we propose to our counterparty.
#[no_mangle]
pub extern "C" fn UserConfig_set_own_channel_config(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelHandshakeConfig) {
- unsafe { &mut *this_ptr.inner }.own_channel_config = *unsafe { Box::from_raw(val.take_ptr()) };
+ unsafe { &mut *this_ptr.inner }.own_channel_config = *unsafe { Box::from_raw(val.take_inner()) };
}
/// Limits applied to our counterparty's proposed channel config settings.
#[no_mangle]
/// Limits applied to our counterparty's proposed channel config settings.
#[no_mangle]
pub extern "C" fn UserConfig_set_peer_channel_config_limits(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelHandshakeLimits) {
- unsafe { &mut *this_ptr.inner }.peer_channel_config_limits = *unsafe { Box::from_raw(val.take_ptr()) };
+ unsafe { &mut *this_ptr.inner }.peer_channel_config_limits = *unsafe { Box::from_raw(val.take_inner()) };
}
/// Channel config which affects behavior during channel lifetime.
#[no_mangle]
/// Channel config which affects behavior during channel lifetime.
#[no_mangle]
pub extern "C" fn UserConfig_set_channel_options(this_ptr: &mut UserConfig, mut val: crate::util::config::ChannelConfig) {
- unsafe { &mut *this_ptr.inner }.channel_options = *unsafe { Box::from_raw(val.take_ptr()) };
+ unsafe { &mut *this_ptr.inner }.channel_options = *unsafe { Box::from_raw(val.take_inner()) };
}
#[must_use]
#[no_mangle]
pub extern "C" fn UserConfig_new(mut own_channel_config_arg: crate::util::config::ChannelHandshakeConfig, mut peer_channel_config_limits_arg: crate::util::config::ChannelHandshakeLimits, mut channel_options_arg: crate::util::config::ChannelConfig) -> UserConfig {
UserConfig { inner: Box::into_raw(Box::new(nativeUserConfig {
- own_channel_config: *unsafe { Box::from_raw(own_channel_config_arg.take_ptr()) },
- peer_channel_config_limits: *unsafe { Box::from_raw(peer_channel_config_limits_arg.take_ptr()) },
- channel_options: *unsafe { Box::from_raw(channel_options_arg.take_ptr()) },
+ own_channel_config: *unsafe { Box::from_raw(own_channel_config_arg.take_inner()) },
+ peer_channel_config_limits: *unsafe { Box::from_raw(peer_channel_config_limits_arg.take_inner()) },
+ channel_options: *unsafe { Box::from_raw(channel_options_arg.take_inner()) },
})), is_owned: true }
}
#[must_use]